View clinical trials related to Pancreatic Cancer.
Filter by:The main purpose of this study is to look at the potential effects of paricalcitol (a drug similar to vitamin D) and nivolumab on pancreatic tumors in patients who are treated with gemcitabine and abraxane. The study will also look at the safety of including paricalcitol and nivolumab as part of the gemcitabine and abraxane chemotherapeutic regimen.
The investigators plan to enroll 30 evaluable patients with (1) a histological diagnosis of advanced pancreatic ductal adenocarcinoma who have demonstrated at least stable disease following ≥16 weeks of treatment with platinum-based chemotherapy and (2) who have signed consent to participate in a clinical trial that contains PARP inhibitor therapy and are anticipated to receive this treatment or (3) will receive PARP inhibitor therapy as part of their clinical care. A pre-treatment 18F-FluorThanatrace ([18F]FTT) positron emission tomography/computed tomography (PET/CT) scan will be done prior to the start of treatment with a PARP inhibitor. PET/CT imaging will be used to evaluate PARP-1 expression in sites of pancreatic cancer using the investigational radiotracer [18F]FTT. This is an observational study in that [18F]FTT PET/CT will not be used to direct treatment decisions. While patients and referring physicians will not be blinded to the [18F]FTT PET/CT results, treatment decisions will be made by the treating physicians based upon clinical criteria. Patients will undergo approximately 60 minutes of dynamic scanning starting at the time of injection of [18F]FTT. This procedure will be followed by a skull base to mid-thigh scan, starting at approximately 60 minutes post injection. PET/CT imaging sessions will include an injection of approximately 10 mCi (approximate range for most studies is anticipated to be 8-12 mCi) of [18F]FTT. Data will be collected to evaluate uptake of [18F]FTT in sites of pancreatic cancer, which will be compared with PARP-1 expression in tissue, when available. All 30 evaluable patients are expected to start PARP inhibitor therapy following the [18F]FTT PET/CT scan. It is expected that due to patient preference and time considerations, approximately 24 patients (80%) will also undergo a second (optional) scan that will be performed approximately 3 weeks (± 1 week) after therapy has started. The second scan is obtained to evaluate whether the PARP inhibitor therapy decreases [18F]FTT uptake, which would suggest PARP blocking by the therapy.
The purpose of this study is to evaluate the pharmacodynamics, safety and efficacy of PEGPH20 in combination with Avelumab in adult patients with chemotherapy resistant advanced or locally advanced pancreatic ductal adenocarcinoma (PDAC). This is a multi-center, open-label, non-randomized trial.
Microparticles have recently emerged as a thrombotic risk marker with a potential role in determining which patients are at greatest risk for developing thrombosis. Available data show an increase in the level of microparticles in cancer patients who are undergoing chemotherapy for solid tumors with a possible link to their thrombogenic state. Our study focuses on the kinetics of microparticles under chemotherapy in patients with pancreatic or gastric cancer by serial measurements of microparticles procoagulant activity. Detailed Description: The impact of chemotherapy on microparticles expression will be assessed by measuring their procoagulant activity on blood samples taken during the course of chemotherapy. The thrombotic risk will be evaluated by the score of Khorana in parallel. Microparticles expression in patients with thrombosis will be compared to that in other patients.
This research study is evaluating a study drug to treat pancreatic exocrine insufficiency (PEI) during the first year after the diagnosis of pancreatic cancer while the participant is recovering from surgery and receiving adjuvant treatment. The study drug involved in this study is: -Zenpep
Background: Pancreas cancer ranks 4th in all cancer-related deaths in the United States (U.S.) Gemcitabine is a standard treatment for it. M7824 (MSB0011359C) blocks a pathway that prevents the immune system from effectively fighting cancer. The two drugs together might help people with pancreas cancer. Objective: To test if giving M7824 together with gemcitabine is safe and causes tumors to shrink. Eligibility: People ages 18 and older with pancreatic cancer already treated with standard therapies Design: Participants will be screened with: Medical history Physical exam Scans in a machine that takes pictures of the body Blood, urine, and heart tests Some participants may have a tumor sample removed. Participants will get M7824 by intravenous (IV) once every 2 weeks. They will continue until their disease gets worse or they have unacceptable side effects. After the first dose, participants will also get gemcitabine by IV once weekly for 7 weeks. Then they will get it as follows for up to 6 months: Skip 1 week, get the drug once a week for 3 weeks, skip 1 week. Before treatment on the first day of each cycle, participants will repeat screening tests. They will also have: Optional tumor biopsies before and after 3 cycles of therapy Questions about their well-being and function Genetic testing of tissue and blood samples Participants will have a follow-up visit 4-5 weeks after they stop therapy. This includes a physical exam, blood and urine tests, and maybe a scan. If their disease does not get worse, they will be invited for scans every 12 weeks.
Background: Researchers want to test if certain cells can be re-programmed into stem cells. Stem cells can keep reproducing for a long time. Cells made by stem cells can be turned into different types of cells. These include cancer-fighting cells, skin cells, etc. The stem cells generated in this study will be used to make specific tumor-fighting cells that can recognize different types of mutations in cancer cells. They may also help identify new tumor mutations that may not have been identified yet. Objectives: To test if a certain type of tumor-fighting cells can be re-programmed into stem cells. Eligibility: Participants in another Surgery Branch protocol who are at least 16 years old Design: Participants already gave samples of blood and/or tumor tissue in the other protocol. They do not need to come back to the clinic or give any other samples. Participants will give consent for their samples to be used in this study. Researchers will obtain cells from the samples. They will grow those cells in the lab. They will create stem cells from them. Researchers will do genetic tests on the samples. Most tests will not show important health results. But if they do, the participant will be invited to talk to a genetic counselor and get more detailed testing to confirm the results. Some of the samples and results will be stored indefinitely. They may be used in future research. No personal information will be stored with them. ...
This is a phase 1b/2 study to evaluate the safety and efficacy of metronomic combination therapy in subjects with pancreatic cancer who have progressed on or after previous SoC chemotherapy.
The main purpose of this study is to look at the potential effects of paricalcitol (a drug similar to vitamin D) on pancreatic tumors in patients who are planned for surgical removal of their tumor. The study will also look at the safety of paricalcitol prior to surgery.
Background: Exomes are the parts of deoxyribonucleic acid (DNA) that make proteins. Researchers are finding a way to read the letters in the exome. Incorrect letters are called mutations. Tumors contain specific mutations. Researchers can find these mutations in tumors to make treatments. Researchers want to use pieces of participants tumors to find the tumor-specific mutations. They also will take participants white blood cells to make a vaccine that they hope will shrink the tumors. Objectives: To see if dendritic vaccine tumor-fighting cells are safe and can cause certain cancer tumors to shrink. Eligibility: Adults ages 18-70 who have metastatic melanoma or metastatic epithelial cancer Design: The first part of this study was done under protocol 03-C-0277. In that study, white blood cells and pieces of participants' tumors were taken to make a vaccine. In this study, participants will get a vaccine every 2 weeks for 8 weeks. It will be given both in a vein and under the skin. At each visit, participants will have a physical exam and have blood taken. They will talk about any side effects they have. After treatment ends, participants will have many follow-up visits for the first year, then once each year after that. Visits will last up to 2 days each. They will include lab tests, imaging studies, and a physical exam. Blood will be taken at each visit. At the first follow-up visit, participants may have leukapheresis, which they also had as part of protocol 03-C-0277. Participants may not have to return to the Clinical Center for these visits.